Glass drawing and blowing apparatus.



E. STANZIDLEY 61 B.- CAMPBELL. GLASS W A'N-D alowme APPARATUSF APPLICATION rlLzn Auazorlsl-al Patented N0v.19 1 918.'

Q, n m m%,

W. E. STANDLEY & T. B. CAMPBELL. GLASS DRAWING AND BLOWING APPARATUS.

AFPLlCATION FILED AUG.20. i915.

Patented Nov. 19, 1918.

6 SHEETS-SHEET 2.

FIG.2

WITNESSES HSTANDLEY & T. B: CAMPBELL. GLASS DRAWING AND BLOWING APPARATUS.

APPLICATION. FILED AUELZO, m5.

" Patented Nov. 19, 1918.

s suzzrs-suas1 a.

W. E. ST-ANDkE-Y (ET. B. CAMPBELL. GLASS DRAWI NG A ND BLOWJNG APPARATUS.

APPLICATION FILED AUG-20.19 15.

,285,450. Patented Nov. 19, 1918.

6 SHEETS-SHEET 4.

w. E. STA'N'DLEY- MLB'JGAMPBELL. GLASS DRAW-ING AND-BLOWING APPARATUS.

APPLICATION FILED AUGi'ZOFIQ B Patented Nov. 19,1918.

6 SHEETS-SHEET 6.

WITNESSES Lilly J i -1 s 'ci a i V is semifinals AND THOMAS s; CAMPBELL, F PITTSBURGH. v3enuusitsVentA, noes ivinnow GLASS scenes ?UT.CQT{PANY, A coneoeamon ,os PENN- eness DRAWING as BLOWING eel nsn'rus,

earemee n e; egisijs.

Applicaion filed'i'iugust 2%, 193.5. erial No. $8,441. i i

concem t We, 'lYiLLiAii 5 renns CAMPBELL, citizens 0' We an residents of Pittsburgh, the county of Allegheny and State of "Penn :lrania have invented a new and Lil linprmeinent in Dravi'i and in; Be it known tha l mv q r, 115? RHQ .1 5210):}: Unite-ti i a 1 i BlowingAoparatus, ot when the lollowing a specification.

"This inrention relates to glass drawing and blowing apparatus, and particularly to apparatus ior making Window. glass by means of the usual drawing bait.

The object of the invention is to provide improved apparatus for producing 'i'ndow quality and at reduced cost v is a manner to avoid Waste oi material and reheating and handling;o1 unv used material A failher object ofthe i1:-

rentionis toibrovide glass drawing apparahaving a large capacitjv for its size and which thereby reduces the overhead charge for space and in tallation which can be readoperated by the ordinary skilled inei-anic in tli art but with smaller number Y of oneratorsfor each neehine, that the net cost of I further ob ect of t the glass is thereby reduced.

apparntnof this kind Which'is senii-nutomatic operation and is thereby readily controlled in its several movements, whose op'eratin mechanism is simple and not liable to easily get out of order. and which autoinatically controls the supply of fuel so as to reduce the cost of the same and prevent burning out the furnace. Furtlie'robjects of the invention are in part obvious and in part williappear more in detail here nafter.

The invention comprises theconstruction and arrz'ingz'eni'entof parts sci ibedi and claimed Inthe drawings, which represent one einbodiinent of the invention, Figure 1 is a riewlpartly in elevation and partly in section. showingthe operating ineclmnism and of the furnace at one ation thereis :1 se k pla; view on the ing mechanism hereinafter deone half 3 connected h nlatically controlling the gas and air sup plies; Fig. is a detail cro'sssection on the line S8, Fig. Fig; 9 is a front elevation. of an automatic switch; Fig. 10 lsascctional elevation on the line 10-10, Fig. 9; and:

l ig.'1l is a diagrammatic view, showing the electric cit-cultarrangement. I

a central column l. The annular space be-i "tween the outer Wall Qhndcentral'eoluninl isbriched' over at the top-'to' form air-roof which is provided at suitable zint'ervalswith covers 7, one of said doors being preferably pro "ided at each stat-ion of the furnace. as

more full} hereinafter described.

Within said annular spaceis-looated'a roe tateblc hearth or body 8,.having innerand outer metal walls 9 supporting the innerand OIlt8l"'bl'lCl{ walls 10, said-Walls? at'their.

lower being "bent. to forni circular flanges wliiclrsupport the "brickwork and rest and roll upon antifriction members, such as the rollers 1 1, carried by pillarslQ resting on the fioor. The space between theunn'er and outer brick valls 10 of the hearth dividedby radiating Walls 12 (four ofwhi'ch introduction of fuel to said chambers. Each "chamber preferably filled with suitable "checker work, as shown to conseri'e the heat, and is covered by a roof l'5'having ports or openings 15 for the gases and Whose upper surtace is fiat to form a floor to receive the pot or crucible 16. The-radiating WallsflZ extend above'the floor 1'5 t'o'the upper end of the body 8, as will be readily understood so as to separatethe pots 16 from each other.

'30 meshing with a small gear '21 on a shaft 22,21: one side of the shaft 19.- Shaft 22; is friction clutch 23 withthe gear 2+ atrain of speIdie to the gear "on In operatioirot 26 runs constantly Q3 close v desired ,"to rotate; hearth, as hereinafter ,ble}manner,fbufipreferablyfby as in order o easily reg late the consun'iption of fuel and the-temperature i at the various stations Qfof thejfurnace. {'As' shown, the furnace is I fsqr lfoundedfbyfa manifold connected to a gas. supply pipe -3l in: which is a suitable regulating valve 32. 'Below said manifold is alarger manifold 33 connected by a cond nt-34 provided w'ith= a 'regulatin'gvvalve 35 ton suitable source of'compres'sed air. At

each station ofthe furnace;is'providedai nozzle I 3-6fpointing upwardly beneath the opening 14 in the floor of one section of the.

I l furnace when'atthat station and'communii {Thesebr'anch 'pifpes are preferablyprovided' with, individual. regulating fvalres E39 and;

cating with branch pipes 37 and 38 leading;

to -the gas and air' manifolds 30 and 33;

40 so, that the supply ofgasz andairiateachstation of'the furnace may be regulated-to 4 willbe readily understood. v

produce the proper temperature at that,'station, independently of all other stations,as i

' The four stat"ons of he furnac'e,' lettered' respectively, the charging vand heating spa tion, the settling station, the drawing sta tipm'a'nd thereheating station. *Each secn of the-hearth 8 is supplied-with a ,pot l6, and by successiverotations of the hearth or body said 'pots are in turn passed-to-the several" stations of 1 the furnace. At stationk C the pot'is filled .With a charge of molten glass drawn from an ordinary tank furnace of suitableconstruction (not shown). The charging is done while .a glass cylinder is -"drawn at station D Each drawing opera? tion requires a period of time sufiicient toenable the new charge at 'statlon' C to be there heated to.a temperature above the o1-' 'dinary working temperatureof the glass to thereby-expand'and driveofi' anyblisters or bubbles. At station. S the supply. of fuel is and any'extra glass therein are reheated to.

the proper temperature to receive a new charge of moltenglass at station -C,

Suitable means is provided" for controlling v the driving mechanism to rotate the furnace hearth at. intervals to carry the pots in turn :to their successive stations, saidmeans'befflh'efurnace'ymayibe.heated in any suity H 44 on a rod 45, .the opposite ends of. whiclr closes the switch .50,-which energizessoles. 'noidj-AG' and'oscillatesthe lever 42 to close the clutch The constantlyrunning motor "-26 is therebyconnected toldrive the gear 18 \next station.

with a laterally eXte-n ling arc snutfing or lever '42 pivoted on the frame and 4113,31 be provided with a handle 43 enabling solenoids't-herod '45 and'leve r 43 may moved in either direction to open'or clos the clutch 23. Referring to' Fig.11, 'th solenoid 46 is in a circuit from the main cur rent leads l8 and l9, said circuit including a switch'50 normally'held in open position,

by-a spring .51. Solenoid 47' is-ina circuit from the same leads and. includes auto: .n'iatic switch 52, shown'in detail inj- Figs.

'9 and 10 and. .whichis automatically con trolled by the rotating table or hearth.

, 1 To rotate the hearth one step the operator andf'rotate. the table. The switch is closed onlymomentarily, as theoperator ref 9q leases itfa'ssoon'as it is operated and it is in1 1-';

'mediatelyopened by the spring 51. :The

,clutchi23, however, remains closed until-an operating pin 53 at the next sectionofthe rotating tableengages and operates. there: switch 52, thereby closing the c1rciiit: through the solenoid 7, energizingthe sameand oscillating'the lever 42 to open the clutch 23, which disconnects the power motor fro'nrthe gear 18.-. The hearth then stops with each .1( pot therein advanced to the Toaccurately' locate a'nd'lock each pot at its respective station the body 8 may be provided .with a'not ch 5i at each'compartment to receive an arm of an oscillating bell crank 55, the other arm of which is connected by a link 56 to a handlever 57.

The mechai'iism of switch 52 is located between two of the pillars 3 which support the outer furnace wall. It comprises-a small spring contact 60 cotiperating with a longe'r' spring Contact 61, the circuit'through the solenoid l7 being closed when said contacts engage with each. other.

Said contacts are 1"; supported by a horizontal member (52 on' which is pivoted a lever ,63' connected by a link 64: to a. second lever65 also pivoted to said member and pro ded at its upper end f'tcr'ial which rolls 'over the upper surfaee of thecontact 61. Said lever is also bent hit I.

erally and its outer end when in operative A "position "lies in'the path of increment of in'g' shown as partly electrical .and partly I'nechanical. Thechitch 23is operated. by a 1 pivoted lever 41 Yconnected .by' a link 36 a] the operating" pins 53 on the rotating table. 1-

arms '70 on a shaft 71' journaled inthe sta the franie' and is?" 'nnectedby links 69 tioiia-ry frame and-".-jcbn11ectecl by anfarm 72 upper endof th v 9 y I Inf- E1g'Sif1; p r 1 thesQlenoid 46.11% ben encrg-lz'ed cI i g Close to a link 73 connectedhat its other end to the e'ver41.

- clutch 23, so that the table or hearth is ro-,

tating to'a new position.v The switch carrying 'portion of the frame has been elevated' to its upper position, which lifts the upper end of the lever 63 into the path of 'movement-fofthe pins 53. "In 9 oneof said pins hasjust engaged the lever 63;

Furthermovement of the. hearth causes said pin to oscillate the lever 63 and' -traverse the'roller 67 over the contact 61, depressing the sanie to the position shown in'dotted lines, Fig. 9, into contact with the spring a contact 60. The same movement oflever 63 causes thear'c snutfing member 66 to travel I gbackwardly overthe contact 60 to a-position -pin 53 said spring -niove s upwardly and v nism reaches the'position shown in full lines, Fig.9, in which position of the parts the] beyond the end ofthe contact-61'. As soon as the'switch 52 is closed; as described; the" solenoid 47 is energizech which oscillates the lever l2 to the right in Figk-l' andopens the clutch 53. The same movement, through the link. 73, lowersthe frame carrying the switch I 52 until the upper end of the lever 63- is below the path of movemeiit of the pin 53.

The spring 61 has sufficient resiliency so that when the lever 63 is disengaged from the causes the roller 67 totravel,backwardly along said spr1ng;unt1l the lever mechaswitchis ready when again elevated to be closed by the next pin 53 on the rotating table. During the opening movement of the switch the member 66 rides over the upper surface of the contact and in tact-- during the first portion of the opening movement of the switch .said membere-nter's the space between'the two contacts so that it interposes an insulated member between th two contacts of the switchandl quickly snuifs, out-,or

- quenches the are, thereby avoiding injury to the contacts and producing a quick action of'the switch. Y L a I The rotating tablealso automaticallycontrol'sthe supplv ofiair and tothe sev- "eral sections 'oftherotati As shown in Fig. 1, the Turning vfuel lssup-t "plied 'to the several 'azompa-rtments of.-v the furnace hearth.

hearth by a nozzle 36 locateddirectlv below During"the rotating "movement of aiidi thereby wasting. the, .fuel and r possibly burning out-the hearthitself. For th pose the rotating table is provi led-with a v second set of outwardly extending pins or mechanism shown in Figs. and 91 and provided at its uppen' en d' 'collar92. The-head and it's' pipe tending pipe 93 carried a f on an Within; I

ingof a cylinder or thimble 103"havin, a

projections 75, one located at eaclfsectio'n'-0f the table. Inthe stationary pos tion of the hearth, during .the drawing operation, one Y of "sald pins engages one end of a lever '76 70 connected by I linksfTT and levers 78*ful crunied at 79 on the 'stat 'oi'iarv 'frame' to one arm of along lever sO jivoted at '81 to the stationary frame.- On'e arni'of: said lever is connected'by a link 82 tothe valve 35'ijirthe main st-plv conduit" 34:" T heotherqarin of sai let 2 is provided with a rounterweight and'is'connected h ya link 8% to a lever 85 connected by a link-86 to one arm of a lever 87 theothe'r armJofxwhich is arranged to operate the valve32 in the main gas supply condu-it '31; Inc-the position of the parts shown in Figs-1 and 8. both the air and gas. supply valves35ahd 32am open, so

that a: full supply, of fuel isbei'ngdelivered to each of the sections of tl-1e;f nrnace. @As

soon as the table is rotatedto move the po ts to new stationsthe pnr-75g-passes elf-fromthe ,endof the lever "[6, and the lever niccha nisin shown'inFig. 7 is oscillated b v the counterweight- 33;to close both ofthe valves 35 and :32; thereby 'shuttingofi both the: gas

and air supplies. lVhen the tnblea'eaches its new position the pin 75 atithenevt section lot "thetable engages the lever TGand again oscillates the same; therebyvt'lvlrning on, thezgas suppl es to the several compartments of the furnace. M r, v 41 The glass s drawn at -stat onlzh mechanism comprises I ajdrawinu bait 90 attached to the-lower. endotdetachahlv, connected to an eupw 1 div. 2

cling alongrvertical guic'lewavs said pipe 93 telescoping through a stuffing-box'into an upwardly extendingbpipe 96 connected ova pipe .a source (if compressedairi 81- Referring to Fig; 6.'the.pipe 93 i's pro dctl near lower end with acollar 'Qt-l resting;

i111} 100 of t-lie ca'rr agej91k The. lower endot'sai'dpipe. below said am. pro;

vided with a hollow casing 101* "provided with, a: large opening 102' in its "peripher d. casing is a valve bodv. consistlarge opening 104 and a small opening 105 therein and also provided with anopci'ating Y jarinulOfi extending out-\vardluthroughan annular slot in the casing 101. Thedoivb'r end of the thinihlc 103 is grouml otftomake a tight joint with the: upper cn'dof thepipc 91 of the head or baitlas indicated at 107.

Collar 92 of the pipe 91 rests on tvvoarins oifQ a forklOS attached to the" carriage 91'. andhvhich straddle the pipe 91. ln conn'ect ngr the drmvina head to tlierarriagt the tj 'jip efll 'is passed between the arms of-the. ifork IOS'and the upper end of sa d pipeis hed upwardly into the lower end of the;- flcasmg. 101, the pipe .93fbeingsimultaneously pushed upwardlyto lift its collar 99 from down to the position shownin Fig. 6, with its collar 92 resting on-the arms 108 and the pipe 93. drops down "by gravity over the I Jupper end of. the pipe 91, or to the position 1- shown-inFig. 6. This is a very simple connection-which enables the bait and its pipe 9l=rto ,.be readily attached to andi det'ached from the Pip 93 whenever desired. f, -Carriage 94 is connbcted by acable 109 to} 'n din'g drum 110 (see Fig, 11) connectedf y affi iction jclutch; 111 to a -moto'r 112, Said clutch normally-heldin closed pest-1 tionby a spring (not-shown) so that when-i ever jthe motor is- 'operated the drum 110gi's1 tatedlto lift the bait. 1 Said clutch,'-. howr,-. may-be opened whenever desired to ir-the biait' to unwind the'-,drum '11O a d J p tof-its lower position by gravity, For; 13 i:S i) 11 rpSe the clutch is providedwith an operating lever 113- connected"by a; link 114 tpI-jtlie core of a solenoid-115, the coil of which is in a circuit/containing aswitch 116.

; In drawing a-glass cylinder'at station D hebait is ltjweredinto the molten glass the potatsaid station and is raised sevinches?t9 allow the mass of glassatedtoythe'bait to solidify. 7 During this rati6n, "yalve member 103 isrotated by handle- 106 .to. a position in which the l rgeppening 104 is said valve member is opposite Ithe'opening- 102 [in the casing, so comparative-1y large-quantity of air m-g-theisource 98 escapesto the atmossoon as a mass of glass has been ,cted andv hardened upon [the bait it is raised slowly by operating the motor 112 to liftthe carriage ;94, and during this operaonfthe valve member is in 1 the position we in Fig. 6, with its smallopening 105 posite the large opening 102 in the casing. nsequently ,more airis supplied from the time 98'to the space within the glass cylerj being lformed and indicated at 116. jlfhisjlargerair supply expands the cylinder v a large diameter and supplies the air to i fillth'e space within said cylinder as the bait.

rises. The cylinder is maintained of uniform diameter throughout the drawing operation by manipulatingthe speed of themotor 112, as hereinafter described. In other -words, if the operator detects anyimpend-ing enlargement of the diameter of the cylinder fitaema f oflt' deyi'ce for. class drawing apparatus, filed As shown in Fig. fhthe furnace is provided at the arm 100. The baitpipe is. then swung the drawing station with an annular'ring 120 havinginner and outer walls forming two 7 passages therein. This ring is of larger size than thediameterof the largest glass cyl-1 finder to, be drawnand.surroundsthe same during thedrawinggoperation. It is prefer- Y 'ably' ofzheavy castmefal, so that it forms a mass oi. upper su .j

face of the metal att e beginning v metal lying c osely-ad'acent to the "of the drawin opmti0na1id re y mp-x idlyconductsithe heat away ifrbni the bait? I during' theattachment of the glass thereto.

x-The-innerwall of said ring forms a channel a ,forconduit 121 tor a gas'supply, which is conducted thereto in any suitable manner,

such as by a pipe or pipes 121?. Spaced at 4/ intervals around-the inside of said ringare;

a'- se1ie's .'of small pipes 122 connected at theirfffifl inner ends to the conduit 121, so that said proper time byvturning on the gas sup-plyto said ring and thereby producing an annular near its-bottom, 1 Betweenthe inner and outer walls oft-he ring is an annular space pipes deliyer a series of .jets'of gasclosely spaced around the inner" periphery of said ring." The vglass cylinder is cut ofl? at'the sheet of fiamewhichmelts oil thecylinder 1241connectedt0 awater supplyffor circulatingwater therethroughfor cooling pur-' poses.

' ing is preferably provided with means for raising and lowering the same so as to moveitout. of the way of the pots when the furnace is rotated from one station to another; As shown, said ring is provided with" upwardly extending rods con nected to cables;125 passing over sheaves -to a. drum 126 which may be rotated in any suitable manner, such as by the worm 127 connected -to a worm wheel 1 thereon operated byahandwheel128;v 4

-' The drawing operationm'ustbe conducted and -11( at'a substantially uniform temperature and v therefore without 3 interference by the. other 1 stations of the furnace,lwhose temperature,

may vary. Therefore thestationary body of the furna'ce'at each side" of the drawing station is, provided with a; vertically movable wall or damper 'Isaid-dampers during 7 the drawing operation resting upon the uppersurface of thtarotating furnace body 8, as shown in thereby closingthis compartment or .section of the furnace,

being formedfthe motor speed is increased, n eing -9omiebtedby:cables 131to suitableoperating means-not, shown, by means hile if the cylinder becomes smaller the 0 Which said wallsfmay. be 'lift'ed slightly When the cylinder is fully formed and of; ,tp .rotate the iurpace; Stat onary dampers oriwallsfifi may also} be provided at the p inglthe speed of the motor 112 for raising in-Fig'. 1 1.

49' supply- 220 volt direct current to the maniac operatin the bait, as more fully shown illustrated, the leads 48 and motor 26 through the starting box 135 and controlling switch 136.] Motor 112 is controlled by the switch 137 having two arms provided with knife switches controlling the around the starting box 140 and resistance 141, ,so' that it includes merely the arma ture rheostat 142. To operate the 'motor at low speedswitch 137 is turned to the posi{ tion shownvin full lines in Fig. 11, which throws the 60 volt line into the motor arma- -ture. '-The'-motor speed can then'be regue- 'lated by means of the startin ,box140and the armature rheostat 142. Y t high s j the switch is turned to its other position which connects the armature directly to the 220 volt line and its speed is then controlled by the armature rheostat 142. r

-The machine described produces a better quality of glass than prior machines because the glassls held in each pot at both the charging and settling stations for a sufiicient length of timeto enable all air blisters or-.bubbles to expand and to escape from the glass so that it beconies' ofhomogeneous texture and works up into acylinder with out flaws or imperfections. "The apparatus alsoreduces the cost of the glass because it dispenses with a number of the laborers re-- quired on ordinary glass-making machines, especially the laborers necessary for han dlmg the excess glass remaining in each pot after the drawing operation, which in many cases is a considerable item. In the present machine such glass is allowed to remain in each pot and is carried around to the reheating and charging stations and is added to the next batch, so that it does not have to'be removed from the pots. The avoidance of the wasteglass also decreases the fuel consumption. The apparatus can be operated readily with a minimum number ofoperators and has a greater outputt-han the ordinary machines for this pur- What we claim is y e 1. Glnssdrawing apparatus comprising a the hearth moves from one furnacehousing, a substantially cylindrical rotatable hearth thereinhaving' a plurality of segmental compartments heat insulated from each other, each compartment contain and'being arranged-to support aglass pot ing a checker-work and havin an opening through the'bottom thereof or a gasfiat-ca;

near its topand permit the gases-to pass upwardly aroundthe-pot, means for rotatmg the hearth to successively position the pots adjacent the glass drawing mechanism, and gas heatin means adjacent certain posmells of the liearth compartments to heat said compartments in such positions.

2. Glass drawing apparatus comprising a furnace housin a substantially cylindrical rotatable heart therein having a plurality of segmental compartments heat insulated from each other, each compartment contairmg a checker work and having an opening through the bottom thereof for a .gas jet and being arranged to support a glass pot near its top and unit the gases-to pass upwardly around ti pot, means for rotating the hearth to successively position the pots adjacent theglam drawing mechanism, gas

heating means adjacent certain positions of the hearth compartments to'heat said com partmentsin such positions. and means controlled by thehearth for automatically shut; tingoif the heating means as the ,hearth moves from one position'to the other and automatically turning it on as it reaches the next osition. v 5

-3 (glass drawing apparatus. comprising a rotatable cylindrical hearth divided into four sections by'radial heat insulating walls,

a checker. work in each section, an opening through-the bottom of each sectmnfor admission of a gas jet, a glass pot positioned above each section with suitable spaces for escape of. the gases, a glass drawing mechanlSnI adpcentthehearth arranged to rece ve glass from the pots as they move ad acent said mechanism. separate gas jets for heat? ing each of said hearth sect ons and means operated by movement of the hearth-for reducing orfcutt-ing off the gas supply as position to'another and automatically turning-it on when the hearth reaches its next'position.

In testimony whereof we have hereunto set ourhands.

' WILLIAM STAN-DLEY. THOMAS B. CAMPBELL.

wane-m Ermr L. Hrniz, Sm: B. Fun. 

